Title

Critical point symmetry for the spherical to triaxially deformed shape phase transition

Document Type

Article

Publication Date

12-17-2015

Abstract

The critical point T(5) symmetry for the spherical to triaxially deformed shape phase transition is introduced from the Bohr Hamiltonian by approximately separating variables at a given γ deformation with 0°≤γ≤30°. The resulting spectral and E2 properties have been investigated in detail. The results indicate that the original X(5) and Z(5) critical point symmetries can be naturally realized within the T(5) model in the γ=0° and γ=30° limit, respectively, which thus provides a dynamical connection between the two symmetries. Comparison of the theoretical calculations for 148Ce, 160Yb, 192Pt and 194Pt with the corresponding experimental data is also made, which indicates that, to some extent, possible asymmetric deformation may be involved in these transitional nuclei.

Publication Source (Journal or Book title)

Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics

First Page

423

Last Page

429

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